References

[1] P. Wolfe. Checking the calculation of gradients. ACM TOMS, 6(4):337–343, 1982.
[2] W. Baur and V. Strassen. The complexity of partial derivatives. Theoretical Computer Science, 22:317–300, 1983.
[3] A. Griewank. Who invented the reverse mode of differentiation? Documenta Mathematica, Extra Volume ISMP:389–400, 2012.
[4] N. Trefethen. Who invented the greatest numerical algorithms? www.comlab.ox.ac.uk/nick.trefethen, 2015.
[5] M. Giles and P. Glasserman. Smoking adjoints: Fast evaluation of greeks in Monte Carlo calculations. Risk, 2006.
[6] L. Andersen and V. Piterbarg. Interest Rate Modeling, Volumes 1, 2, and 3. Atlantic Financial Press, 2010.
[7] J. Andreasen. CVA on an iPad mini, part 2: The beast. Aarhus Kwant Factory PhD Course, 2014.
[8] J. Andreasen. Back to the future. Risk, 2005.
[9] J. Guyon and P. Henry-Labordere. The smile calibration problem solved. Available at SSRN: https://ssrn.com/abstract=1885032 or http://dx.doi.org/10.2139/ssrn.1885032, 2011.
[10] J. Andreasen. CVA on an iPad mini. Global Derivatives, 2014, Presentation.
[11] J. Andreasen and A. Savine. Modern Computational Finance: Scripting for Derivatives and xVA. Wiley Finance, 2018.
[12] B. Dupire. Pricing with a smile. Risk, 7(1):18–20, 1994.
[13] J. F. Carriere. Valuation of the early-exercise price for options using simulations and nonparametric regression. Insurance: Mathematics and Economics, 19(1):19–30, 1996.
[14] F. A. Longstaff and E. S. Schwartz. Valuing ...

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Modern Computational Finance by Antoine Savine, Leif Andersen